Hypoxia equally reduces the respiratory compensation point and the NIRS-derived [HHb] breakpoint during a ramp-incremental test in young active males
Academic Article
Publication Date:
2020
Abstract:
This study investigated the effect of reduced inspired fraction of O2 (FiO2 ) in the correspondence between the respiratory compensation point (RCP) and the breakpoint in the near-infrared spectroscopy-derived deoxygenated hemoglobin signal ([HHb]bp ) during a ramp-incremental (RI) test to exhaustion. Eleven young males performed, on two separated occasions, a RI test either in normoxia (NORM, FiO2 = 20.9%) or hypoxia (HYPO, FiO2 = 16%). Oxygen uptake (
˙
V
O2 ), and [HHb] signal from the vastus lateralis muscle were continuously measured. Peak
˙
V
O2 (2.98 ± 0.36 vs. 3.39 ± 0.26 L min-1 ) and PO (282 ± 29 vs. 310 ± 19 W) were lower in HYPO compared to NORM condition, respectively. The
˙
V
O2 and PO associated with RCP and [HHb]bp were lower in HYPO (2.35 ± 0.24 and 2.34 ± 0.26 L min-1 ; 198 ± 37 and 197 ± 30 W, respectively) when compared to NORM (2.75 ± 0.26 and 2.75 ± 0.28 L min-1 ; 244 ± 29 and 241 ± 28 W, respectively) (p < .05). Within the same condition, the
˙
V
O2 and PO associated with RCP and [HHb]bp were not different (p > .05). Bland-Altman plots mean average errors between RCP and [HHb]bp were not different from zero in HYPO (0.01 L min-1 and 1.1 W) and NORM (0.00 L min-1 and 3.6 W) conditions. The intra-individual changes between thresholds associated with
˙
V
O2 and PO in HYPO from NORM were strongly correlated (r = .626 and 0.752, p < .05). Therefore, breathing a lower FiO2 during a RI test resulted in proportional reduction in the RCP and the [HHb]bp in terms of
˙
V
O2 and PO, which further supports the notion that these physiological responses may arise from similar metabolic changes reflecting a common phenomenon.
˙
V
O2 ), and [HHb] signal from the vastus lateralis muscle were continuously measured. Peak
˙
V
O2 (2.98 ± 0.36 vs. 3.39 ± 0.26 L min-1 ) and PO (282 ± 29 vs. 310 ± 19 W) were lower in HYPO compared to NORM condition, respectively. The
˙
V
O2 and PO associated with RCP and [HHb]bp were lower in HYPO (2.35 ± 0.24 and 2.34 ± 0.26 L min-1 ; 198 ± 37 and 197 ± 30 W, respectively) when compared to NORM (2.75 ± 0.26 and 2.75 ± 0.28 L min-1 ; 244 ± 29 and 241 ± 28 W, respectively) (p < .05). Within the same condition, the
˙
V
O2 and PO associated with RCP and [HHb]bp were not different (p > .05). Bland-Altman plots mean average errors between RCP and [HHb]bp were not different from zero in HYPO (0.01 L min-1 and 1.1 W) and NORM (0.00 L min-1 and 3.6 W) conditions. The intra-individual changes between thresholds associated with
˙
V
O2 and PO in HYPO from NORM were strongly correlated (r = .626 and 0.752, p < .05). Therefore, breathing a lower FiO2 during a RI test resulted in proportional reduction in the RCP and the [HHb]bp in terms of
˙
V
O2 and PO, which further supports the notion that these physiological responses may arise from similar metabolic changes reflecting a common phenomenon.
CRIS type:
1.1 Articolo in rivista
Keywords:
deoxygenation breakpoint; cycling; exercise intensity
List of contributors:
Azevedo, Rda; Bejar Saona, Je; Inglis, Ec; Iannetta, D; Murias, Jm
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